1 \input texinfo @c -*-texinfo-*-
2 @setfilename ../info/ada-mode
6 This file documents Ada mode.
8 Permission is granted to make and distribute verbatim copies of this
9 manual provided the copyright notice and this permission notice are
10 preserved on all copies.
13 Permission is granted to process this file through TeX and print the
14 results, provided the printed document carries copying permission notice
15 identical to this one except for the removal of this paragraph (this
16 paragraph not being relevant to the printed manual).
19 Permission is granted to copy and distribute modified versions of this
20 manual under the conditions for verbatim copying, provided that the
21 entire resulting derived work is distributed under the terms of a
22 permission notice identical to this one.
24 Permission is granted to copy and distribute translations of this manual
25 into another language, under same conditions as for modified versions.
32 @subtitle An Emacs major mode for programming Ada 95 with GNAT
33 @subtitle July 1998 for Ada Mode Version 3.0
36 @comment This is for the copyright page.
38 @vskip 0pt plus 1filll
40 Permission is granted to make and distribute verbatim copies of
41 this manual provided the copyright notice and this permission notice
42 are preserved on all copies.
45 Permission is granted to process this file through TeX and print the
46 results, provided the printed document carries copying permission
47 notice identical to this one except for the removal of this paragraph
48 (this paragraph not being relevant to the printed manual).
51 Permission is granted to copy and distribute modified versions of this
52 manual under the conditions for verbatim copying, provided that the entire
53 resulting derived work is distributed under the terms of a permission
54 notice identical to this one.
56 Permission is granted to copy and distribute translations of this manual
57 into another language, under the same conditions as for modified versions.
61 @node Top, Overview, (dir), (dir)
65 * Installation:: Installing the Ada mode on your system
66 * Customization:: Setting up the Ada mode to your taste
67 * Project files:: Describing the organization of your project
68 * Syntax highlighting:: Using specific colors and fonts to highlight
69 the structure of your files
70 * Moving Through Ada Code:: Moving easily through Ada sources
71 * Identifier completion:: Finishing words automatically
72 * Index Menu of Subprograms:: A menu of all the types and subprograms
73 defined in your application
74 * File Browser:: Easy access to your files
75 * Automatic Smart Indentation:: Indenting your code automatically as you type
76 * Formatting Parameter Lists:: Formating subprograms parameter lists
78 * Automatic Casing:: Adjusting the case of words automatically
79 * Statement Templates:: Inserting code templates
80 * Comment Handling:: Reformatting comments easily
81 * Compiling Executing:: Working with your application within Emacs
82 * Debugging:: Debugging your application
83 * Using non-standard file names:: Configuring Emacs for special file names
84 * Working Remotely:: Working on a different machine
88 @c -----------------------------------------------------------------------
89 @node Overview, Installation, Top, Top
91 @c -----------------------------------------------------------------------
93 The Emacs mode for programming in Ada 95 with GNAT helps the user in
94 understanding existing code and facilitates writing new code. It
95 furthermore provides some utility functions for easier integration of
96 standard Emacs features when programming in Ada.
98 @section General features:
101 @item full Integrated Development Environment :
103 @item support of 'project files' for the configuration (directories,
104 compilation options,...)
105 @item compiling and stepping through error messages.
106 @item running and debugging your applications within Emacs.
108 @item easy to use for beginners by pull-down menus,
109 @item user configurable by many user-option variables.
112 @section Ada mode features that help understanding code:
115 @item functions for easy and quick stepping through Ada code,
116 @item getting cross reference information for identifiers (e.g. find the
117 defining place by a keystroke),
118 @item displaying an index menu of types and subprograms and move point to
120 @item automatic color highlighting of the various entities in Ada code.
123 @section Emacs support for writing Ada code:
126 @item switching between spec and body files with eventually
127 auto-generation of body files,
128 @item automatic formating of subprograms parameter lists.
129 @item automatic smart indentation according to Ada syntax,
130 @item automatic completion of identifiers,
131 @item automatic casing of identifiers, keywords, and attributes,
132 @item insertion of statement templates,
133 @item filling comment paragraphs like filling normal text,
136 @c -----------------------------------------------------------------------
137 @node Installation, Customization, Overview, Top
138 @chapter Installation
139 @c -----------------------------------------------------------------------
141 If you got the Ada mode as a separate distribution, you should have a
142 look at the @file{README} file. It explains the basic steps necessary
143 for a good installation of the emacs Ada mode.
145 Installing the Ada mode is basically just a matter of copying a few
146 files into the Emacs library directories. Every time you open a file
147 with a file extension of @file{.ads} or @file{.adb}, Emacs will
148 automatically load and activate the Ada mode.
150 See the section @ref{Using non-standard file names}, if your files do
151 not use these extensions and if you want Emacs to automatically start the
152 Ada mode every time you edit an Ada file.
154 See also the Emacs documentation @ref{(emacs)}, for general usage
155 variables that you might want to set.
157 @c ---------------------------------------------------------------------
158 @section Required files
159 @c ---------------------------------------------------------------------
161 This Ada mode works best with Emacs 20.3 or higher (the easy editing
162 features for the project files won't work with any older version), but
163 most of the commands should work with older versions too. Please try to
164 install the most recent version of Emacs on your system before
165 installing the Ada mode.
167 Although part of the Ada mode is compiler independent, the most advanced
168 features are specific to the Gnat compiler @url{http://www.gnat.com}.
170 The following files are provided with the Ada mode distribution:
174 @item @file{ada-mode.el}: The main file for the Ada mode.
175 This is the only file which does not require Gnat. It contains the
176 functions for indentation, formatting of parameter lists, stepping
177 through code, comment handling and automatic casing. Emacs versions
178 20.2 and higher already contain Ada mode version 2.27, which is an older
179 version of this file and should be replaced. Loading @file{ada-mode.el}
180 from the current distribution supersedes the standard installation.
182 @item @file{ada-stmt.el}: Contains the statement templates feature.
184 @item @file{ada-xref.el}: This file provides the main support for Gnat.
185 This is where the functions for cross-references, completion of
186 identifiers, support for project files and compilation of your
187 application are defined.
189 @item @file{ada-prj.el}: The functions to use for easy-edition of the
190 project files. This file is the only one which really requires Emacs at
191 least 20.2. It uses the new widget features from Emacs.
195 @c --------------------------------------------------------------------
196 @node Customization, Project files, Installation, Top
197 @chapter Customizing the Ada mode
198 @c ---------------------------------------------------------------------
200 The ada-mode is fully customizable. Everything, from the file names to
201 the automatic indentation and the automatic casing can be adapted to
204 There are two different kinds of variables that control this
205 customization, both are easy to modify.
207 The first set of variables are standard Emacs variables. Of course, some
208 are defined only for the Ada mode, whereas others have a more general
209 meaning in Emacs. Please see the Emacs documentation for more
210 information on the latest. In this documentation, we will detail all the
211 variables that are specific to the Ada mode, and a few others. The names
212 will be given, as in @code{ada-case-identifier}.
214 Emacs provides an easy way to modify them, through a special mode called
215 customization. To access this mode, select the menu
216 @kbd{Ada->Customize}. This will open a new buffer with some fields that
217 you can edit. For instance, you will get something like:
219 Put below the compiler switches.
220 comp_opt= _____________________________________
222 The first line gives a brief description of the variable. The second
223 line is the name of the variable and the field where you can give a
224 value for this variable. Simply type what you want in the field.
226 When you are finished modifying the variables, you can simply click on
227 the @b{Save for future sessions} button at the top of the buffer (click
228 with the middle mouse button). This will save the values in your
229 @file{.emacs} file, so that next time you start Emacs they will have the
232 To modify a specific variable, you can directly call the function
233 @code{customize-variable} from Emacs (just type @key{M-x
234 customize-variable RET} and then type the variable name.
236 Some users might prefer to modify the variables directly in their
237 configuration file, @file{.emacs}. This file is coded in Emacs lisp, and
238 the syntax to set a variable is the following:
240 (setq variable-name value)
243 The second set of variables for customization are set through the use of
244 project files. These variables are specific to a given project, whereas
245 the first set was more general. For more information, please
246 @xref{Project files}.
248 @c ---------------------------------------------------------------------
249 @node Project files, Syntax highlighting, Customization, Top
250 @chapter Project files
251 @c ---------------------------------------------------------------------
253 @c ---------------------------------------------------------------------
254 @section General overview
255 @c ---------------------------------------------------------------------
257 Emacs provides a full Integrated Development Environment for GNAT and
258 Ada programmers. That is to say, editing, compiling, executing and
259 debugging can be performed within Emacs in a convenient and natural way.
261 To take full advantage of this features, it is possible to create a file
262 in the main directory of your application, with a '.adp' extension.
263 This file contain all needed information dealing with the way your
264 application is organized between directories, the commands to compile,
265 run and debug it etc. Creating this file is not mandatory and convenient
266 defaults are automatically provided for simple setups. It only becomes
267 necessary when those above mentioned defaults need customizing.
269 A simple way to edit this file is provided for Emacs 20.2 or newer, with
270 the following functions, that you can access also through the Ada
271 menu. It is also possible to edit the project file as a regular text
274 Once in the buffer for editing the project file, you can save your
275 modification using the '[OK]' button at the bottom of the buffer, or
276 simply use the usual @kbd{C-x C-s} binding. To cancel your
277 modifications, simply kill the buffer or click on the '[CANCEL]' button
280 Each buffer using Ada mode will be associated with one project file when
281 there is one available, so that Emacs can easily navigate through
282 related source files for instance.
284 The exact algorithm to determine which project file should be used is
285 described in the next section, but you can force the project file you
286 want to use by setting one or two variables in your @file{.emacs} file.
289 @item To set up a default project file to use for any directory, anywhere
290 on your system, set the variable @code{ada-prj-default-project-file} to
291 the name of that file.
293 (set 'ada-prj-default-project-file "/dir1/dir2/file")
296 @item For a finer controlled, you can set a per-directory project file.
297 This is done through the variable @code{ada-xref-default-prj-file}.
299 (set 'ada-xref-default-prj-file
300 '(("/dir1/dir2" . "/dir3/file1")
301 ("/dir4/dir5" . "/dir6/file2")))
303 Note: This has a higher priority than the first variable, so the first
304 choice is to use this variable settings, and otherwise
305 @code{ada-prj-default-project-file}.
310 @item C-c u ada-customize menu: Ada->Project->New/Edit
311 Create or edit the project file for the current buffer.
312 @item C-c c ada-change-prj
313 Change the project file associated with the current Ada buffer.
315 Change the default project file for the current directory. Every new
316 file opened from this directory will be associated with that file by
318 @item ada-set-default-project-file menu: Ada->Project->Set Default
319 Set the default project file to use for *any* Ada file opened anywhere
320 on your system. This sets this file only for the current Emacs session.
323 @c ---------------------------------------------------------------------
324 @section Project file variables
325 @c ---------------------------------------------------------------------
327 The following variables can be defined in a project file. They all have
328 a default value, so that small projects do not need to create a project
331 Some variables below can be referenced in other variables, using a
332 shell-like notation. For instance, if the variable @code{comp_cmd}
333 contains a sequence like @code{$@{comp_opt@}}, the value of that variable
336 Here is the list of variables:
339 @item src_dir [default: "./"]
340 This is a list of directories where the Ada mode will look for source
341 files. These directories are used mainly in two cases, both as a switch
342 for the compiler and for the cross-references.
344 @item obj_dir [default: "./"]
345 This is a list of directories where to look for object and library
346 files. The library files are the .ali files generated by Gnat and that
347 contain cross-reference informations.
349 @item comp_opt [default: ""]
350 Creates a variable which can be referred to subsequently by using the
351 @code{$@{comp_opt@}} notation. This is intended to store the default
352 switches given to `gnatmake' and `gcc'.
354 @item bind_opt=SWITCHES [default: ""]
355 Creates a variable which can be referred to subsequently by using the
356 @code{$@{bind_opt@}} notation. This is intended to store the default
357 switches given to `gnatbind'.
359 @item link_opt=SWITCHES [default: ""]
360 Creates a variable which can be referred to subsequently by using the
361 @code{$@{link_opt@}} notation. This is intended to store the default
362 switches given to `gnatlink'.
364 @item main=EXECUTABLE [default: ""]
365 Specifies the name of the executable for the application. This variable
366 can be referred to in the following lines by using the @code{$@{main@}}
369 @item cross_prefix=PREFIX [default: ""]
370 This variable should be set if you are working in a cross-compilation
371 environment. This is the prefix used in front of the gnatmake commands.
373 @item remote_machine=MACHINE [default: ""]
374 This is the name of the machine to log into before issuing the
375 compilation command. If this variable is empty, the command will be run
376 on the local machine. This will not work on Windows NT machines, since
377 the Ada mode will simply precede the compilation command with a 'rsh'
378 command, unknown on Windows.
380 @item comp_cmd=COMMAND [default: "$@{cross_prefix@}gcc -c -I$@{src_dir@} -g -gnatq"]
381 Specifies the command used to compile a single file in the application.
382 The name of the file will be added at the end of this command.
384 @item make_cmd=COMMAND [default: "$@{cross_prefix@}gnatmake $@{main@} -aI$@{src_dir@} -aO$@{obj_dir@} -g -gnatq -cargs $@{comp_opt@} -bargs $@{bind_opt@} -largs $@{link_opt@}"]'
385 Specifies the command used to recompile the whole application.
387 @item run_cmd=COMMAND [default: "$@{main@}"]
388 Specifies the command used to run the application.
390 @item debug_cmd=COMMAND [default: "$@{cross_prefix@}gdb $@{main@}"]
391 Specifies the command used to debug the application
395 @c ---------------------------------------------------------------------
396 @section Detailed algorithm
397 @c ---------------------------------------------------------------------
399 This section gives more details on the project file setup and is only of
400 interest for advanced users.
402 Usually, an Ada file is part of a larger application, whose sources and
403 objects can be spread over multiple directories. The first time emacs is
404 asked to compile, run or debug an application, or when a cross reference
405 function is used (goto declaration for instance), the following steps
409 @item find the appropriate project file, open and parse it.
410 All the fields read in the project file are then stored by emacs
411 locally. Finding the project file requires a few steps:
414 @item if a file from the same directory was already associated with
415 a project file, use the same one. This is the variable
416 @code{ada-xref-default-prj-file} described above.
417 @item if the variable @code{ada-prj-default-project-file} is set,
418 use the project file specified in this variable.
419 @item if there is a project file whose name is the same as the source file
420 except for the suffix, use this one.
421 @item if there's only one project file in the source directory, use
423 @item if there are more than one project file in the source directory,
425 @item if there are no project files in the source directory use standard
429 The first project file that is selected in a given directory becomes the
430 default project file for this directory and is used implicitly for other
431 sources unless specified otherwise by the user.
433 @item look for the corresponding .ali file in the @code{obj_dir} defined
434 in the project file. If this file can not be found, emacs proposes to
435 compile the source using the @code{comp_cmd} defined in the project file
436 in order to create the ali file.
438 @item when cross referencing is requested, the .ali file is parsed to
439 determine the file and line of the identifier definition. It is
440 possible for the .ali file to be older than the source file, in which
441 case it will be recompiled if the variable @code{ada-xref-create-ali} is
442 set, otherwise the reference is searched in the obsolete ali file with
443 possible inaccurate results.
445 @item look for the file containing the declaration using the source
446 path @code{src_dir} defined in the project file. Put the cursor at the
447 correct position and display this new cursor.
450 @c -----------------------------------------------------------------------
451 @node Syntax highlighting, Moving Through Ada Code, Project files, Top
452 @chapter Syntax highlighting
453 @c -----------------------------------------------------------------------
455 The Ada mode is made to help you understand the structure of your source
456 files. Some people like having colors or different fonts depending on
457 the context: commands should be displayed differently than keywords,
458 which should also be different from strings, ...
460 Emacs is able to display in a different way the following syntactic
467 @item gnatprep statements (preprocessor)
468 @item types (under certain conditions)
472 This is not the default behavior for Emacs. You have to explicitly
473 activate it. This requires that you add a new line in your @file{.emacs}
474 file (if this file does not exist, just create it).
477 (global-font-lock-mode t)
480 But the default colors might not be the ones you like. Fortunately,
481 there is a very easy way to change them. Just select the menu
482 @kbd{Help->Customize->Specific Face...} and press @kbd{Return}. This
483 will display a buffer will all the "faces" (the colors) that Emacs knows
484 about. You can change any of them.
487 @c -----------------------------------------------------------------------
488 @node Moving Through Ada Code, Identifier completion, Syntax highlighting, Top
489 @chapter Moving Through Ada Code
490 @c -----------------------------------------------------------------------
492 There are several easy to use commands to stroll through Ada code. All
493 these functions are available through the Ada menu, and you can also use
494 the following key bindings or the command names:
497 @item M-C-e ada-next-procedure
498 Move to the next function/procedure/task, which ever comes next.
499 @item M-C-a ada-previous-procedure
500 Move to previous function/procedure/task.
501 @item ada-next-package
502 Move to next package.
503 @item ada-prev-package
504 Move to previous package.
505 @item C-c C-a ada-move-to-start
506 Move to matching start of @code{end}. If point is at the end of a
507 subprogram, this command jumps to the corresponding @code{begin} if the
508 user option @code{ada-move-to-declaration} is @code{nil} (default), it
509 jumps to the subprogram declaration otherwise.
510 @item C-c C-e ada-move-to-end
511 Move point to end of current block.
512 @item C-c o ff-find-other-file
513 Switch between corresponding spec and body file. If the cursor is on a
514 subprogram, switch between declaration and body.
516 Move from any reference to its declaration and switch between
517 declaration and body (for procedures, tasks, private and incomplete
519 @item C-c C-r ada-find-references
520 runs the @file{gnatfind} command to search for all references to the
521 entity pointed by the cursor. Use 'next-error' function, or C-x `, to
522 visit each reference (as for compilation errors).
525 These functions use the information in the output of the Gnat Ada
526 compiler. However, if your application was compiled with the
527 @code{-gnatx} switch, these functions will not work, since no extra
528 information is generated by GNAT. See GNAT documentation for further
531 Emacs will try to run Gnat for you whenever the cross-reference
532 informations are older than your source file (provided the
533 @code{ada-xref-create-ali} variable is non nil). Gnat then produces a
534 file with the same name as the current Ada file but with the extension
535 changed to @code{.ali}. This files are normally used by the binder, but
536 they will also contain additional cross-referencing information.
538 @c -----------------------------------------------------------------------
539 @node Identifier completion, Index Menu of Subprograms, Moving Through Ada Code, Top
540 @chapter Identifier completion
541 @c -----------------------------------------------------------------------
543 @c -----------------------------------------------------------------------
545 @c -----------------------------------------------------------------------
547 Emacs and the Ada mode provide two general ways for the completion of
548 identifiers. This is an easy way to type faster: you just have to type
549 the first few letters of an identifiers, and then loop through all the
550 possible completions.
552 The first method is general for Emacs. It will work both with Ada
553 buffers, but also in C buffers, Java buffers, ... The idea is to parse
554 all the opened buffers for possible completions.
556 For instance, if the following words are present in any of the opened
557 files: my_identifier, my_subprogam, then you will have this scenario:
559 You type: my@key{M-/}
560 Emacs will display: my_identifier
561 If you press @key{M-/} once again, Emacs will replace my_identifier with
563 Pressing @key{M-/} once more will bring you back to my_identifier.
566 This is a very fast way to do completion, and the casing of words will
569 The second method is specific to Ada buffer, and even to users of the
570 Gnat compiler. Emacs will search the cross-information found in the .ali
571 files generated by Gnat for possible completions.
573 The main advantage is that this completion is more accurate: only
574 existing identifier will be suggested, you don't need to have a file
575 opened that already contains this identifiers,...
577 On the other hand, this completion is a little bit slower and requires
578 that you have compiled your file at least once since you created that
581 @c -----------------------------------------------------------------------
582 @section Summary of commands
583 @c -----------------------------------------------------------------------
586 @item C-TAB ada-complete-identifier
587 complete accurately current identifier using information in .ali file
589 complete identifier using buffer information (not ada specific)
592 @c -----------------------------------------------------------------------
593 @node Index Menu of Subprograms, File Browser, Identifier completion, Top
594 @chapter Index Menu of Subprograms
595 @c -----------------------------------------------------------------------
597 You can display a choice menu with all procedure/function/task
598 declarations in the file and choose an item by mouse click to get to its
599 declaration. This function is accessible through the 'Ada' menu when
600 editing a Ada file, or simply through the following key binding :
607 @c -----------------------------------------------------------------------
608 @node File Browser, Automatic Smart Indentation, Index Menu of Subprograms, Top
609 @chapter File Browser
610 @c -----------------------------------------------------------------------
612 Emacs provides a special mode, called @code{speedbar}. When this mode is
613 activated, a new frame is displayed, with a file browser. The files from
614 the current directory are displayed, and you can click on them as you
615 would with any file browser. The following commands are then available.
617 You can click on a directory name or file name to open it. The editor
618 will automatically select the best possible mode for this file,
619 including of course the ada-mode for files written in Ada
621 If you click on the [+] symbol near a file name, all the symbols (types,
622 variables and subprograms) defined in that file will be displayed, and
623 you can directly click on them to open the right file at the right
626 You can activate this mode by typing @key{M-x speedbar} in the editor.
627 This will open a new frame. A better way might be to assicate the
628 following key binding
631 (global-set-key [f7] 'speedbar-get-focus)
634 Every time you press @key{f7}, the mouse will automatically move to the
635 speedbar frame (which will be created if it does not exist).
637 @c -----------------------------------------------------------------------
638 @node Automatic Smart Indentation, Formatting Parameter Lists, File Browser, Top
639 @chapter Automatic Smart Indentation
640 @c -----------------------------------------------------------------------
642 The Ada mode comes with a full set of rules for automatic indentation.
643 You can of course configure the indentation as you want, by setting the
644 value of a few variables.
646 As always, the preferred way to modify variables is to use the
647 @code{Ada->Customize} menu (don't forget to save your changes!). This
648 will also show you some example of code where this variable is used, and
649 hopefully make things clearer.
651 The relevant variables are the following:
654 @item ada-broken-indent (default value: 2)
655 Number of columns to indent the continuation of a broken line
657 @item ada-indent (default value: 3)
658 Width of the default indentation
660 @item ada-indent-record-rel-type (default value: 3)
661 Indentation for 'record' relative to 'type' or 'use'
663 @item ada-indent-return (default value: 0)
664 Indentation for 'return' relative to 'function' (if ada-indent-return
665 is greater than 0), or the open parenthesis (if ada-indent-return is
666 negative or null). Note that in the second case, when there is no
667 open parenthesis, the indentation is done relative to 'function' with
668 the value of ada-broken-indent.
670 @item ada-label-indent (default value: -4)
671 Number of columns to indent a label
673 @item ada-stmt-end-indent (default value: 0)
674 Number of columns to indent a statement 'end' keyword on a separate line
676 @item ada-when-indent (default value: 3)
677 Indentation for 'when' relative to 'exception' or 'case'
679 @item ada-indent-is-separate (default value: t)
680 Non-nil means indent 'is separate' or 'is abstract' if on a single line
682 @item ada-indent-to-open-paren (default value: t)
683 Non-nil means indent according to the innermost open parenthesis
685 @item ada-indent-after-return (default value: t)
686 Non-nil means that the current line will also be re-indented before
687 inserting a newline, when you press @kbd{Return}.
691 Most of the time, the indentation will be automatic, i.e when you will
692 press @kbd{Return}, the cursor will move to the correct column on the
695 However, you might want or need sometimes to re-indent the current line
696 or a set of lines. For this, you can simply go to that line, or select
697 the lines, and then press @kbd{TAB}. This will automatically re-indent
700 Another mode of indentation exists that helps you to set up your
701 indentation scheme. If you press @kbd{C-c TAB}, the ada-mode will do the
704 @item Reindent the current line, as @kbd{TAB} would do
705 @item Temporarily move the cursor to a reference line, i.e the line that
706 was used to calculate the current indentation
707 @item Display at the bottom of the window the name of the variable that
708 provided the offset for the indentation
711 The exact indentation of the current line is the same as the one for the
712 reference line, plus an offset given by the variable.
714 Once you know the name of the variable, you can either modify it through
715 the usual @key{Ada->Customize} menu, or by typing @key{M-x
716 customize-variable RET} in the Emacs window, and then give the name of
721 indent the current line or the current region.
723 indent lines in the current selected block.
725 indent the current line and prints the name of the variable used for
731 @c -----------------------------------------------------------------------
732 @node Formatting Parameter Lists, Automatic Casing, Automatic Smart Indentation, Top
733 @chapter Formatting Parameter Lists
734 @c -----------------------------------------------------------------------
736 To help you correctly align fields in a subprogram parameter list, Emacs
737 provides one function that will do most of the work for you. This
738 function will align the declarations on the colon (':') separating
739 argument names and argument types, plus align the 'in', 'out' and 'in
740 out' keywords if required.
743 @item C-c C-f ada-format-paramlist
744 Format the parameter list.
747 @c -----------------------------------------------------------------------
748 @node Automatic Casing, Statement Templates, Formatting Parameter Lists, Top
749 @chapter Automatic Casing
750 @c -----------------------------------------------------------------------
752 Casing of identifiers, attributes and keywords is automatically
753 performed while typing when the variable @code{ada-auto-case} is set.
754 Every time you press a word separator, the previous word is
757 You can customize the automatic casing differently for keywords,
758 attributes and identifiers. The relevant variables are the following:
759 @code{ada-case-keyword}, @code{ada-case-attribute} and
760 @code{ada-case-identifier}.
762 All these variables can have one of the following values:
766 The previous word will simply be in all lower cases. For instance
767 @code{My_vARIable} is converted to @code{my_variable}.
770 The previous word will be fully converted to upper cases. For instance
771 @code{My_vARIable} is converted to @code{MY_VARIABLE}.
773 @item ada-capitalize-word
774 All letters, except the first one of the word and every letter after the
775 '_' character are lower cased. Other letters are upper cased. For
776 instance @code{My_vARIable} is converted to @code{My_Variable}.
778 @item ada-loose-case-word
779 No letters is modified in the previous word, except the ones after the
780 '_' character that are upper cased. For instance @code{My_vARIable} is
781 converted to @code{My_VARIable}.
784 These functions, although they will work in most cases, will not be
785 accurate sometimes. The Ada mode allows you to define some exceptions,
786 that will always be cased the same way.
788 The idea is to create a dictionary of exceptions, and store it in a
789 file. This file should contain one identifier per line, with the casing
790 you want to force. The default name for this file is
791 @file{~/.emacs_case_exceptions}. You can of course change this name,
792 through the variable @code{ada-case-exception-file}.
794 Note that each line in this file must start with the key word whose
795 casing you want to specify. The rest of the line can be used for
796 comments (explaining for instance what an abbreviation means, as
797 recommended in the Ada 95 Quality and Style, paragrpah 3.1.4). Thus, a
798 good example for this file could be:
801 DOD Department of Defense
803 GNAT The GNAT compiler from Ada Core Technologies
806 When working on project involving multiple programmers, we recommend
807 that every member of the team sets this variable to the same value,
808 which should point to a system-wide file that each of them can
809 write. That way, you will ensure that the casing is consistent
810 throughout your application(s).
812 There are two ways to add new items to this file: you can simply edit it
813 as you would edit any text file, and add or suppress entries in this
814 file. Remember that you should put one entity per line. The other,
815 easier way, is to position the cursor over the word you want to add, in
816 an Ada buffer. This word should have the casing you want. Then simply
817 select the menu @kbd{Ada->Edit->Create Case Exception}, or the key
818 @kbd{C-c C-y}. The word will automatically be added to the current list
819 of exceptions and to the file.
821 It is sometimes useful to have multiple exception files around (for
822 instance, one could be the standard Ada acronyms, the second some
823 company specific exceptions, and the last one some project specific
824 exceptions). If you set up the variable @code{ada-case-exception-file}
825 as a list of files, each of them will be parsed and used in your emacs
828 However, when you save a new exception through the menu, as described
829 above, the new exception will be added to the first file in the list
830 only. You can not automatically add an exception to one of the other
831 files, although you can of course edit the files by hand at any time.
833 Automatic casing can be performed on port or whole buffer using:
836 Adjust case in the whole buffer.
838 Create a new entry in the exception dictionary, with the word under
841 Rereads the exception dictionary from the file
842 @code{ada-case-exception-file}.
845 @c -----------------------------------------------------------------------
846 @node Statement Templates, Comment Handling, Automatic Casing, Top
847 @chapter Statement Templates
848 @c -----------------------------------------------------------------------
850 NOTE: This features are not available on VMS for Emacs 19.28. The
851 functions used here do not exist on Emacs 19.28.
853 Templates exist for most Ada statements. They can be inserted in the
854 buffer using the following commands:
911 @c -----------------------------------------------------------------------
912 @node Comment Handling, Compiling Executing, Statement Templates, Top
913 @chapter Comment Handling
914 @c -----------------------------------------------------------------------
916 By default, comment lines get indented like Ada code. There are a few
917 additional functions to handle comments:
922 Start a comment in default column.
924 Continue comment on next line.
925 @item C-c ; comment-region
926 Comment the selected region (add -- at the beginning of lines).
928 Uncomment the selected region
930 autofill the current comment.
933 @c -----------------------------------------------------------------------
934 @node Compiling Executing, Debugging, Comment Handling, Top
935 @chapter Compiling Executing
936 @c -----------------------------------------------------------------------
938 Ada mode provides a much complete environment for compiling, debugging
939 and running an application within Emacs.
941 All the commands used by Emacs to manipulate your application can be
942 customized in the project file. Some default values are provided, but
943 these will likely not be good enough for a big or even medium-sized
944 project. See the section on the project file for an explanation on how
945 to set up the commands to use.
947 One of the variables you can set in your project file,
948 @code{cross_prefix}, indicates whether you are using a cross-compilation
949 environment, and if yes for which target. The default command used for
950 compilation will add this @code{cross_prefix} in front of the name:
951 @code{gcc} will become @code{cross_prefix}-@code{gcc}, @code{gnatmake}
952 will become @code{cross_prefix}-@code{gnatmake}, ...
954 This will also modify the way your application is run and debugged,
955 although this is not implemented at the moment.
957 Here are the commands for building and using an Ada application
961 @item Compiling the current source
962 This command is issued when issuing the @code{compile} command from the
963 Ada menu. It compiles unconditionally the current source using the
964 @code{comp_cmd} variable of the project file. Compilation options can be
965 customized with the variable @code{comp_opt} of the project file.
967 Emacs will display a new buffer that contains the result of the
968 compilation. Each line associated with an error will become active: you
969 can simply click on it with the middle button of the mouse, or move the
970 cursor on it and press @kbd{Return}. Emacs will then display the
971 relevant source file and put the cursor on the line and column the error
974 You can also simply press the @kbd{C-x `} key and Emacs will jump to the
975 first error. If you press that key again, it will move you to the second
978 Some error messages might also include references to some files. These
979 references are also clickable in the same way.
982 @item (Re)building the whole application
983 This command is issued when you select the @code{build} command from the
984 Ada menu. It compiles all obsolete units of the current application
985 using the @code{make_cmd} variable of the project file. Compilation
986 options can be customized with the variable @code{comp_opt} of the
987 project file, binder options with @code{bind_opt} and linker options
988 with @code{link_opt}. The main unit of the application may be specified
991 The compilation buffer is also active in the same way it was for the above
994 @item Running the application
995 This command is issued when you select the @code{run} command from the
996 Ada menu. It executes the current application in an emacs
997 buffer. Arguments can be passed through before executing. The execution
998 buffer allows for interactive input/output.
1000 This command is not yet available in a cross-compilation
1001 toolchain. Emacs would first need to log on the target before running
1002 the application. This will be implemented in a future release of Gnat.
1006 @c ---------------------------------------------------------------------
1007 @node Debugging, Using non-standard file names, Compiling Executing, Top
1008 @chapter Debugging your application
1009 @c ---------------------------------------------------------------------
1011 You can set up in the project file a command to use to debug your
1012 application. Emacs is compatible with a lot of debuggers, and provide an
1013 easy interface to them.
1015 This selection will focus on the gdb debugger, and two of the graphical
1016 interfaces that exist for it.
1018 In all cases, the main window in Emacs will be split in two: in the
1019 upper buffer, the source code will appear, whereas the debugger
1020 input/output window is displayed at the bottom. You can enter the
1021 debugger commands as usual in the command window. Every time a new
1022 source file is selected by the debugger (for instance as a result of a
1023 @code{frame} command), the appropriate source file is displayed in the
1026 The source window is interactive: you can click on an identifier with the
1027 right mouse button, and print its value in the debugger window. You can
1028 also set a breakpoint simply by right-clicking on a line.
1030 You can easily use Emacs as the source window when you are using a
1031 graphical interface for the debugger. The interesting thing is that,
1032 whereas you still have the graphical nifties, you can also you the
1033 cross-references features that the ada-mode provides to look at the
1034 definition for the identifiers,...
1036 Here is how you can set up gdbtk and ddd for use with Emacs (These are
1037 the commands you should setup in the project file):
1041 should be used with the switch --emacs_gdbtk. It provides a nice
1042 backtrace window, as well as a tasks window. You can click interactively
1043 on both of them, and Emacs will display the source file on the correct
1046 @item ddd (Data Display Debugger)
1047 should be used with the switches --tty and -fullname. Whenever you
1048 print a variable from Emacs, it will be displayed graphically in the
1054 @c ---------------------------------------------------------------------
1055 @node Using non-standard file names, Working Remotely, Debugging, Top
1056 @chapter Using non-standard file names
1057 @c ---------------------------------------------------------------------
1059 By default, Emacs is configured to use the GNAT style file names, where
1060 file names are the package names, and the extension for spec and bodies
1061 are respectively .ads and .adb.
1063 If you want to use other types of file names, you will need to modify
1064 your .emacs configuration file.
1066 Adding new possible extensions is easy. Since the ada-mode needs to know
1067 how to go from the body to the spec (and back), you always have to
1068 specify both. A function is provided with the ada-mode to add new
1071 For instance, if your files are called <unit>_s.ada and <unit>_b.ada
1072 respectively for spec and bodies, you need to add the following to your
1076 (ada-add-extensions "_s.ada" "_b.ada")
1079 Note that it is possible to redefine the extension, even if they already
1083 (ada-add-extensions ".ads" "_b.ada")
1084 (ada-add-extensions ".ads" ".body")
1087 This simply means that whenever the ada-mode will look for the body for
1088 a file whose extension is @file{.ads}, it will take the first available
1089 file that ends with either @file{.adb} (standard), @file{_b.ada} or
1092 If the filename is not the unit name, then things are a little more
1093 complicated. You then need to rewrite the function
1094 ada-make-filename-from-adaname (see the file @file{ada-mode.el} for an
1097 @c ---------------------------------------------------------------------
1098 @node Working Remotely, ,Using non-standard file names, Top
1099 @chapter Working Remotely
1100 @c ---------------------------------------------------------------------
1102 When you work on project that involve a lot of programmers, it is
1103 generally the case that you will edit the files on your own machine, but
1104 you want to compile, run and debug your application in another buffer.
1106 Fortunately, here too Emacs provides a very convenient way to do this.
1108 @c ---------------------------------------------------------------------
1109 @section Remote editing
1110 @c ---------------------------------------------------------------------
1112 First of all, the files do not need to be on your machine. Emacs can
1113 edit any remote file, by doing transparent FTP sessions between your
1114 machine and the remote machine that stores your files. This is a special
1115 Emacs mode, called @code{ange-ftp}. To use it, you just have to use a
1116 slightly different syntax when you open a file.
1119 For instance, if you want to open the file /work/foo.adb on the machine
1120 aleph.gnu.org, where you log in as qwe, you would simply do this:
1122 @key{C-x C-f} /qwe@@aleph.gnu.org:/work/foo.adb @key{Return}
1124 i.e put your name, the name of the machine and the name of the file.
1127 The first time, Emacs will ask you for a password that it will remember
1128 until you close the current Emacs. Even if the ftp session times out,
1129 you won't need to reenter your password.
1131 Every time you save the file, Emacs will upload it to the remote machine
1132 transparently. No file is modified on the local machine.
1134 @c ---------------------------------------------------------------------
1135 @section Remote compiling
1136 @c ---------------------------------------------------------------------
1138 If the machine you want to compile on is not the one your Emacs is
1139 running on, you can set the variable @code{remote_machine} in the
1140 project file for your application.
1142 This will force Emacs to issue a rsh command for the compilation,
1143 instead of running it on the local machine. Unfortunately, this won't
1144 work on Windows workstations, since this protocol is not supported.
1147 If your @code{remote_machine} is aleph.gnu.org and the standard
1148 compilation command is @code{cd /work/ && gnatmake foo}, then Emacs will
1149 actually issue the command @code{rsh aleph.gnu.org 'cd /work/ &&
1153 The advantage of using the @code{remote_machine} variable is that it is
1154 easier to change that machine without having to modify the compilation
1157 Note that if you need to set up some environment variables before the
1158 compilation, you need to insert a call to the appropriate initialization
1159 script in the compilation command, for instance:
1162 build_cmd= initialization_script ; cd /work/ && gnatmake foo
1165 @c ---------------------------------------------------------------------
1166 @section Remote running and debugging
1167 @c ---------------------------------------------------------------------
1169 This feature is not completely implemented yet.
1171 However, most of the time, you will be able to run your application
1172 remotely simply by replacing it with a 'rsh' call on Unix.
1175 For instance, if your command was '$@{main@}', you could replace it with
1176 'rsh aleph.gnu.org $@{main@}'.
1179 However, this would not fully work for instance on vxworks, where rsh